Clinical Evaluation-Physical Examination

The examination of the injured athlete’s spine initially may be limited to a cursory four-limb sensory and voluntary motor assessment along with palpation of the entire spine for point tenderness during the log-roll onto a spine board for transport off the playing field.

The primary concern of the sports physician with a severely traumatized athlete should be to assess the airway with cervical spine immobilization, followed by a rapid survey of the respiratory and circulatory function. If immediately life-threatening injuries are identified, these are attended to as part of the primary survey.

The initial palpation of the spine may reveal the location of point tenderness or a deformity, such as a step or gap between spinous processes. A definite motor or sensory level on the trunk indicates a significant spinal injury, and urgent transfer to a medical center capable of investigating and comprehensively treating spinal injuries is required.

Gentle testing for hip flexion power with resistance to contraction of the iliopsoas muscle may lead to inhibition of pain if a thoracolumbar fracture is present.

Once a patient is off the field and stabilized hemodynamically, a detailed examination documenting the neurological status is required. The Standard Neurological Classification of Spinal Cord Injury form, which is available from the American Spinal Injury Association, provides easy charting of the patient’s neurological status.

The ambulatory athlete with a thoracolumbar spinal injury will include tests to determine neurological deficit, signs of nerve root irritation, any loss of spinal range of motion, and the exact location of tenderness, pain radiation, or paresthesias. Special maneuvers to reproduce the pain also should be carried out.

Inspection of the spine for deformity and loss of sagittal trunk balance can be carried out with the standing patient. Also, bruising, café-au-lait spots, or abnormal hair tufts may indicate other underlying pathology. Paraspinal spasm may cause a postural scoliosis and limitation of forward flexion because of pain.

Structural scoliosis involves a rotation of the vertebrae and can be detected on the forward-bending test. Range-of-motion testing may indicate the location of the source of pain. Pain with trunk extension may be an indication that pain is coming from the posterior elements of the neural arch, such as degenerative facets or a pars defect of spondylolysis.

Severe reproduction of shooting pain with forward bending may indicate disc herniation. Reproduction of the shooting pain with straight-leg raise test (the Leseque test) along with the Cram test (positive bowstring sign) indicates irritation of the nerve roots that form the sciatic nerve. Similarly, the femoral nerve stretch test, which flexes the knee while the hip is extended, will detect irritation of the upper lumbar roots that form the femoral nerve.

The neurological examination will match the clinical relationships with deficits of sensory, reflexes, and motor testing to determine the neurological level. For example, the S1 level deficits will have numbness to the lateral aspect of the foot with weakness of the gastrocnemius muscle and either a diminished or absent Achilles tendon reflex. The patellar tendon reflex may be affected by L3 or L4 nerve root compression.

It should be noted that the L5 nerve root does not have a reliable reflex test, but the tibialis posterior tendon may show a slight response. The Babinski test is useful in detecting myelopathy. However, it may be positive in patients with brain injury. The rectal examination may be used to check for sacral nerve root or sacral cord segment involvement.

In a paraplegic patient lacking both power and sensation in the lower extremities, the presence of perianal sensation and voluntary contraction of the anal sphincter is an indication of a partial cord injury known as sacral sparing.

Cauda equina syndrome occurs with the acute severe compression of the spinal nerves in the lumbar spinal canal and is characterized by bowel and bladder dysfunction. The loss of anal sphincter tone leads to fecal incontinence, and the loss of the bladder tone leads to urinary retention. Severe nerve root irritation signs are found on physical examination.

Examination of the pelvis, with particular attention to the sacroiliac and hip joints, should be performed. The range of motion of the sacroiliac joints is minimal because of the extensive fibrous anterior and posterior ligaments as well as the irregular articular surfaces.

In relatively high-velocity impact trauma, the athlete may sustain unstable pelvic injuries that result in open-book or closed-book movement of the iliac wings relative to each other.

If vertical shifting of a hemipelvis is present, this indicates a major disruption of the posterior hemipelvis, which would be very unstable for any weight bearing on the ipsilateral limb. These severe pelvic injuries may be associated with spinal fractures as well as hemodynamic instability resulting from massive bleeding into the retroperitoneum.

Most injuries of the lumbar spine may involve tenderness over one or both sacroiliac joints, because the majority of the intrinsic muscles of the lumbar spinal area have their origin on the posterior capsule and/or the bones adjacent to the sacroiliac joints.

Stressing of the sacroiliac joints to reproduce pain originating from within the joint can be done with the Patrick test, which involves flexion, abduction, and external rotation of the hip while counterpressure is applied on the contralateral iliac wing.

When the sacroiliac joint is inflamed or unstable after trauma, reproduction of the severe low back pain can occur with this maneuver. In patients with inflammation of the hip joint itself, the pain that is produced by the Patrick test may be referred to the anterior hip and groin region.